Ruptures From Silent Earthquakes Deep In Earths Crust Can Heal Themselves Within Hours
Ruptures From Silent Earthquakes Deep In Earths Crust Can Heal Themselves Within Hours
Cracks deep in Earth’s crust can stick themselves back together within hours after certain earthquakes, new research suggests.
Specifically, these cracks can heal speedily after what geologists call slow slip events. This is when the deformation- and stress-induced movement between two sides of a fault occurs over days, weeks or months, rather than over seconds or, for thelargest earthquakesminutes.
“Slow slip events and regular earthquakes can occur on the same major fault systems, but they typically happen at different depths and under different physical conditions,” Thomas told Live Science in an email. “What determines whether the fault slips slowly or suddenly is the fault frictional behavior and the effective stress on the fault.”
Thomas and her colleagues studied slow slip events deep in the Cascadia subduction zone, a “megafault” where the Juan de Fuca Plate slides under the North American Plate. Cascadiaexperiences lots of these slow slip eventsand has an exceptional seismic monitoring network, making it one of the best places in the world to study this phenomenon, Thomas said.
The megafault iscapable of unleashing magnitude 8 and 9 earthquakes. “In subduction zones like Cascadia, large earthquakes occur in shallow, colder rocks, while slow slip happens deeper where temperatures and pressures are much higher and fluids are abundant,” Thomas explained.
Cascadia’s slow slip events are unusual in that they sometimes rupture the same zone repeatedly during a single event. Within just a few hours, one area of the fault can break multiple times, which suggests both that stress is reloaded quickly and that a “healing” process occurs between ruptures. “That repeated re-activation is one of the puzzles our study set out to explain,” Thomas said.
The results were published Nov. 19 in the journalScience Advances.
Because the depths of Cascadia are inaccessible, the researchers re-created in the lab the conditions thought to exist deep within the subduction zone. They loaded a silver capsule with powdered quartz and a trickle of water to mimic rocks and deep fluids, respectively. The team then welded the capsule shut, heated it to about 930 degrees Fahrenheit (500 degrees Celsius), and put it under a pressure 10,000 times higher than atmospheric pressure for up to 24 hours.
Next, the researchers used electron microscopy to glean what had happened to the quartz powder. They found that the mineral grains had been welded together, even in samples that had been “cooked” for only a few hours.
“Fault healing depends strongly on temperature, pressure, and the presence of fluids,” Thomas said. “In our experiments, these conditions produced measurable strengthening within hours.”
Regular earthquakes typically occur in shallower regions of the crust, so it takes much longer — years to decades — for fractures to heal. “Our results suggest the same basic process can operate across the crust, but the timescales change depending on the environment,” Thomas said.
The other part of the puzzle addressed in the study is how stress is reloaded so rapidly during slow slip events in Cascadia. The subduction zone experiences low-frequency earthquakes, which are small seismic events triggered in bursts when the same area ruptures again and again. These bursts overlap with ocean tide cycles, suggesting tidal changes can cause a fault to re-rupture just hours after it has repaired itself.
“In Cascadia, rapid healing means that parts of the deep fault can re-strengthen quickly enough to be re-activated multiple times during one slow slip cycle,” Thomas said. “That affects how we model slow slip and how we interpret the signals we use to monitor the deep fault.”
Fault healing is also an important consideration in shallower regions, including those known to cause major earthquakes. Repair processes should be included in the next generation of models, as they could improve our understanding of earthquake risks, Thomas said.
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Author:[email protected] (Sascha Pare)
Published on:2025-11-25 14:43:00
Source: www.livescience.com
Disclaimer: This news article has been republished exactly as it appeared on its original source, without any modification.
We do not take any responsibility for its content, which remains solely the responsibility of the original publisher.
Author: uaetodaynews
Published on: 2025-11-27 02:46:00
Source: uaetodaynews.com
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